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Bose-Einstein Condensation of Photons
S. Greveling
Sub Nanophotonics
Nanophotonics
Research output
:
Thesis
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Doctoral thesis 1 (Research UU / Graduation UU)
Overview
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Dive into the research topics of 'Bose-Einstein Condensation of Photons'. Together they form a unique fingerprint.
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Keyphrases
Bose-Einstein Condensation
100%
Microcavity
100%
Albert Einstein
33%
Eigenmodes
33%
Spontaneous Symmetry Breaking
33%
Periodic Potential
33%
Cosmology
16%
Interaction Strength
16%
Particle Physics
16%
Spatial Distribution
16%
Phase Transition
16%
Photonic Crystal
16%
Photonic Band Gap
16%
Bose-Einstein Condensate
16%
Mott Insulator
16%
Eigenstates
16%
Quantum Phase Transition
16%
Signal-to-noise Ratio
16%
Rubidium
16%
Cool-down
16%
Ultracold Atoms
16%
Repulsive Interaction
16%
Radial Profile
16%
Superfluid
16%
Polarization State
16%
Non-interacting
16%
Tabletop
16%
Density Distribution
16%
Unpolarized
16%
Large Signal
16%
Effective Interaction
16%
Condensed Matter Physics
16%
Local Density
16%
Photon Gas
16%
Spectral Distribution
16%
Electronic Band Gap
16%
Stokes Parameters
16%
Experimental Parameters
16%
Dye Concentration
16%
Pump Lasers
16%
Theoretical Profile
16%
Ideal Bose Gas
16%
Two-dimensional Harmonic Oscillator
16%
Photon Density
16%
Density-based Approach
16%
Massive Bosons
16%
Photonic Crystal Cavity
16%
Hole Diameter
16%
Quantum Harmonic Oscillator
16%
Physics
Bose-Einstein Condensate
100%
Ground State
100%
Photonic Crystal
66%
Broken Symmetry
66%
Harmonic Oscillator
66%
Cold Atom
33%
Particle Physics
33%
Condensed Matter Physics
33%
Photonics
33%
State of Matter
33%
Signal-to-Noise Ratio
33%
Density Distribution
33%
Energy Gaps (Solid State)
33%
Spatial Distribution
33%
Supercritical Fluid
33%